Cite
Charge Density Wave and Crystal Structure of $$\hbox {K}_{x}\hbox {WO}_{3}$$ ( $$x=0.20$$ and 0.22) Prepared by Hybrid Microwave Method.
MLA
Chen, Runze, et al. “Charge Density Wave and Crystal Structure of $$\hbox {K}_{x}\hbox {WO}_{3}$$ ( $$x=0.20$$ and 0.22) Prepared by Hybrid Microwave Method.” Journal of Low Temperature Physics, vol. 188, no. 1/2, July 2017, pp. 1–10. EBSCOhost, https://doi.org/10.1007/s10909-017-1762-6.
APA
Chen, R., Gao, C., Bu, K., Hao, X., Wang, Z., Wen, L., Guo, J., Chao, M., Liang, E., Yang, L., & Dong, C. (2017). Charge Density Wave and Crystal Structure of $$\hbox {K}_{x}\hbox {WO}_{3}$$ ( $$x=0.20$$ and 0.22) Prepared by Hybrid Microwave Method. Journal of Low Temperature Physics, 188(1/2), 1–10. https://doi.org/10.1007/s10909-017-1762-6
Chicago
Chen, Runze, Chaojun Gao, Kun Bu, Xiaoyu Hao, Zichen Wang, Lianjun Wen, Juan Guo, et al. 2017. “Charge Density Wave and Crystal Structure of $$\hbox {K}_{x}\hbox {WO}_{3}$$ ( $$x=0.20$$ and 0.22) Prepared by Hybrid Microwave Method.” Journal of Low Temperature Physics 188 (1/2): 1–10. doi:10.1007/s10909-017-1762-6.